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<h3>Artigos completos publicados em periódicos</h3> <br> <img src="PB0.png"> <br>Número total de itens: 63<br><h3 class="year"> 2012</h3> <table><tr valign="top"><td>1. &nbsp;</td> <td>AMORIM, R. M. ; CAMPOS, R. S. ; LOBOSCO, M. ; JACOB, C. ; SANTOS, Rodrigo Weber dos. <b>An Electro-Mechanical Cardiac Simulator Based on Cellular Automata and Mass-Spring Models</b>. Lecture Notes in Computer Science. v. 7495, p. 434-443, 2012.<br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=An+Electro-Mechanical+Cardiac+Simulator+Based+on+Cellular+Automata+and+Mass-Spring+Models&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=An+Electro-Mechanical+Cardiac+Simulator+Based+on+Cellular+Automata+and+Mass-Spring+Models">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=An+Electro-Mechanical+Cardiac+Simulator+Based+on+Cellular+Automata+and+Mass-Spring+Models">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>2. &nbsp;</td> <td>AMORIM, R. M. ; Weber dos Santos, Rodrigo. <b>Solving the cardiac bidomain equations using graphics processing units</b>. Journal of Computational Science. v. 1, p. 1-15, 2012. <a href="http://dx.doi.org/10.1016/j.jocs.2012.06.007" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Solving+the+cardiac+bidomain+equations+using+graphics+processing+units&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Solving+the+cardiac+bidomain+equations+using+graphics+processing+units">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Solving+the+cardiac+bidomain+equations+using+graphics+processing+units">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>3. &nbsp;</td> <td>Augusto, Douglas A. ; BARBOSA, H. J. C.. <b>Accelerated parallel genetic programming tree evaluation with OpenCL</b>. Journal of Parallel and Distributed Computing (Print). v. 73, p. 86-100, 2012. <a href="http://dx.doi.org/10.1016/j.jpdc.2012.01.012" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Accelerated+parallel+genetic+programming+tree+evaluation+with+OpenCL&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Accelerated+parallel+genetic+programming+tree+evaluation+with+OpenCL">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Accelerated+parallel+genetic+programming+tree+evaluation+with+OpenCL">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>4. &nbsp;</td> <td>Barbosa, F.S. ; Farage, M.C.R. ; Beaucour, A.-L. ; ORTOLA, S.. <b>Evaluation of aggregate gradation in lightweight concrete via image processing</b>. Construction Building Materials. v. 29, p. 7-11, 2012. <a href="http://dx.doi.org/10.1016/j.conbuildmat.2011.08.081" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Evaluation+of+aggregate+gradation+in+lightweight+concrete+via+image+processing&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Evaluation+of+aggregate+gradation+in+lightweight+concrete+via+image+processing">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Evaluation+of+aggregate+gradation+in+lightweight+concrete+via+image+processing">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: A2 ] 		 </font><br></td></tr><tr valign="top"><td>5. &nbsp;</td> <td>Campos, Fernando O. ; Prassl, Anton J. ; Seemann, Gunnar ; Weber dos Santos, Rodrigo ; Plank, Gernot ; HOFER, Ernst. <b>Influence of ischemic core muscle fibers on surface depolarization potentials in superfused cardiac tissue preparations: a simulation study</b>. Medical Biological Engineering Computing. v. 50, p. 461-472, 2012. <a href="http://dx.doi.org/10.1007/s11517-012-0880-1" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Influence+of+ischemic+core+muscle+fibers+on+surface+depolarization+potentials+in+superfused+cardiac+tissue+preparations:+a+simulation+study&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Influence+of+ischemic+core+muscle+fibers+on+surface+depolarization+potentials+in+superfused+cardiac+tissue+preparations:+a+simulation+study">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Influence+of+ischemic+core+muscle+fibers+on+surface+depolarization+potentials+in+superfused+cardiac+tissue+preparations:+a+simulation+study">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>6. &nbsp;</td> <td>Cannataro, Mario ; Weber dos Santos, Rodrigo ; Sundnes, Joakim ; Veltri, Pierangelo. <b>Advanced computing solutions for health care and medicine</b>. Journal of Computational Science. v. 3, p. 250-253, 2012. <a href="http://dx.doi.org/10.1016/j.jocs.2012.07.002" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Advanced+computing+solutions+for+health+care+and+medicine&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Advanced+computing+solutions+for+health+care+and+medicine">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Advanced+computing+solutions+for+health+care+and+medicine">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>7. &nbsp;</td> <td>Figueredo, Grazziela P. ; Ebecken, Nelson F. F. ; Augusto, Douglas A. ; Barbosa, Helio J. C.. <b>An immune-inspired instance selection mechanism for supervised classification</b>. Memetic Computing. v. 4, p. 135-147, 2012. <a href="http://dx.doi.org/10.1007/s12293-012-0081-3" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=An+immune-inspired+instance+selection+mechanism+for+supervised+classification&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=An+immune-inspired+instance+selection+mechanism+for+supervised+classification">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=An+immune-inspired+instance+selection+mechanism+for+supervised+classification">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>8. &nbsp;</td> <td>FONSECA, L. G. ; BARBOSA, H. J. C. ; BERNARDINO, H. S.. <b>A Genetic Algorithm Assisted by a Locally Weighted Regression Surrogate Model</b>. Lecture Notes in Computer Science. v. 7333, p. 125-135, 2012.<br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=A+Genetic+Algorithm+Assisted+by+a+Locally+Weighted+Regression+Surrogate+Model&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=A+Genetic+Algorithm+Assisted+by+a+Locally+Weighted+Regression+Surrogate+Model">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=A+Genetic+Algorithm+Assisted+by+a+Locally+Weighted+Regression+Surrogate+Model">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>9. &nbsp;</td> <td>GOUVÊA DE BARROS, BRUNO ; SACHETTO OLIVEIRA, RAFAEL ; Meira, Wagner ; LOBOSCO, MARCELO ; Weber dos Santos, Rodrigo. <b>Simulations of Complex and Microscopic Models of Cardiac Electrophysiology Powered by Multi-GPU Platforms</b>. Computational and Mathematical Methods in Medicine (Print). v. 2012, p. 1-13, 2012. <a href="http://dx.doi.org/10.1155/2012/824569" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Simulations+of+Complex+and+Microscopic+Models+of+Cardiac+Electrophysiology+Powered+by+Multi-GPU+Platforms&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Simulations+of+Complex+and+Microscopic+Models+of+Cardiac+Electrophysiology+Powered+by+Multi-GPU+Platforms">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Simulations+of+Complex+and+Microscopic+Models+of+Cardiac+Electrophysiology+Powered+by+Multi-GPU+Platforms">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>10. &nbsp;</td> <td>I. Knop ; Costa, Caroline Mendonça ; CRUZ, Jader dos Santos ; BARBOSA, Ciro de Barros ; LOBOSCO, M. ; dos Santos, R. W.. <b>A New Web-Based Integration Tool for the Development of in Silico Experiments of Cardiac Electrophysiology</b>. IFMBE Proceedings. v. 37, p. 355-358, 2012. <a href="http://dx.doi.org/10.1007/978-3-642-23508-5_92" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=A+New+Web-Based+Integration+Tool+for+the+Development+of+in+Silico+Experiments+of+Cardiac+Electrophysiology&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=A+New+Web-Based+Integration+Tool+for+the+Development+of+in+Silico+Experiments+of+Cardiac+Electrophysiology">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=A+New+Web-Based+Integration+Tool+for+the+Development+of+in+Silico+Experiments+of+Cardiac+Electrophysiology">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B3 ] 		 </font><br></td></tr><tr valign="top"><td>11. &nbsp;</td> <td>I. Knop ; Pigozzo, A. ; B.M. Quintela ; Macedo, G. C. ; BARBOSA, Ciro de Barros ; dos Santos, R. W. ; LOBOSCO, M.. <b>Modeling Human Immune System Using a System Dynamics Approach</b>. IFMBE Proceedings. v. 37, p. 1055-1065, 2012. <a href="http://dx.doi.org/10.1007/978-3-642-23508-5_94" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Modeling+Human+Immune+System+Using+a+System+Dynamics+Approach&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Modeling+Human+Immune+System+Using+a+System+Dynamics+Approach">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Modeling+Human+Immune+System+Using+a+System+Dynamics+Approach">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B3 ] 		 </font><br></td></tr><tr valign="top"><td>12. &nbsp;</td> <td>KNOP, I. O. ; PIGOZZO, A. B. ; QUINTELA, B. M. ; Macedo, G. C. ; Barbosa, Ciro B. ; SANTOS, Rodrigo Weber dos ; LOBOSCO, M.. <b>System Dynamics Metamodels Supporting the Development of Computational Models of the Human Innate Immune System</b>. Lecture Notes in Computer Science. v. 7333, p. 707-722, 2012.<br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=System+Dynamics+Metamodels+Supporting+the+Development+of+Computational+Models+of+the+Human+Innate+Immune+System&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=System+Dynamics+Metamodels+Supporting+the+Development+of+Computational+Models+of+the+Human+Innate+Immune+System">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=System+Dynamics+Metamodels+Supporting+the+Development+of+Computational+Models+of+the+Human+Innate+Immune+System">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>13. &nbsp;</td> <td>Loureiro, F. S. ; WROBEL, L. C. ; Mansur, W. J.. <b>Solution of hyperbolic bioheat transfer problems by numerical green's functions: the ExGA-linear θ method</b>. Journal of the Brazilian Society of Mechanical Sciences and Engineering (Impresso). v. 34, p. 459-468, 2012. <a href="http://dx.doi.org/10.1590/S1678-58782012000400006" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Solution+of+hyperbolic+bioheat+transfer+problems+by+numerical+green's+functions:+the+ExGA-linear+θ+method&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Solution+of+hyperbolic+bioheat+transfer+problems+by+numerical+green's+functions:+the+ExGA-linear+θ+method">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Solution+of+hyperbolic+bioheat+transfer+problems+by+numerical+green's+functions:+the+ExGA-linear+θ+method">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>14. &nbsp;</td> <td>MURAD, MARCIO A. ; BORGES, MARCIO ; OBREGÓN, JESUS A. ; CORREA, MAICON. <b>A new locally conservative numerical method for two-phase flow in heterogeneous poroelastic media</b>. Computers and Geotechnics. v. 1, p. 1-20, 2012. <a href="http://dx.doi.org/10.1016/j.compgeo.2012.06.010" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=A+new+locally+conservative+numerical+method+for+two-phase+flow+in+heterogeneous+poroelastic+media&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=A+new+locally+conservative+numerical+method+for+two-phase+flow+in+heterogeneous+poroelastic+media">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=A+new+locally+conservative+numerical+method+for+two-phase+flow+in+heterogeneous+poroelastic+media">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: A2 ] 		 </font><br></td></tr><tr valign="top"><td>15. &nbsp;</td> <td>OLIVEIRA, R. S. ; ROCHA, Bernardo Martins ; ROCHA, Bernardo Martins ; BURGARELLI, D. ; MEIRA JUNIOR, W. ; SANTOS, Rodrigo Weber dos. <b>An Adaptive Mesh Algorithm for the Numerical Solution of Electrical Models of the Heart</b>. Lecture Notes in Computer Science. v. 7333, p. 649-664, 2012. <a href="http://dx.doi.org/10.1007/978-3-642-31125-3_49" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=An+Adaptive+Mesh+Algorithm+for+the+Numerical+Solution+of+Electrical+Models+of+the+Heart&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=An+Adaptive+Mesh+Algorithm+for+the+Numerical+Solution+of+Electrical+Models+of+the+Heart">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=An+Adaptive+Mesh+Algorithm+for+the+Numerical+Solution+of+Electrical+Models+of+the+Heart">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>16. &nbsp;</td> <td>OLIVEIRA, Rafael Sachetto ; Rocha, B. M. ; AMORIM, R. M. ; CAMPOS, Fernando Otaviano ; Meira Junior, Wagner ; Toledo, Elson ; Weber dos Santos, Rodrigo. <b>Comparing CUDA, OpenCL and OpenGL Implementations of the Cardiac Monodomain Equations</b>. Lecture Notes in Computer Science. v. 7204, p. 111-120, 2012.<br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Comparing+CUDA,+OpenCL+and+OpenGL+Implementations+of+the+Cardiac+Monodomain+Equations&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Comparing+CUDA,+OpenCL+and+OpenGL+Implementations+of+the+Cardiac+Monodomain+Equations">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Comparing+CUDA,+OpenCL+and+OpenGL+Implementations+of+the+Cardiac+Monodomain+Equations">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B1 ] 		 </font><br></td></tr><tr valign="top"><td>17. &nbsp;</td> <td>OLIVEIRA, Rafael Sachetto ; Rocha, Bernardo M. ; BURGARELLI, DENISE ; LT ; Santos, Rodrigo Weber dos. <b>A parallel accelerated adaptive mesh algorithm for the solution of electrical models of the heart</b>. International Journal of High Performance Systems Architecture (Print). v. 4, p. 89, 2012. <a href="http://dx.doi.org/10.1504/IJHPSA.2012.050988" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=A+parallel+accelerated+adaptive+mesh+algorithm+for+the+solution+of+electrical+models+of+the+heart&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=A+parallel+accelerated+adaptive+mesh+algorithm+for+the+solution+of+electrical+models+of+the+heart">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=A+parallel+accelerated+adaptive+mesh+algorithm+for+the+solution+of+electrical+models+of+the+heart">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: B2 ] 		 </font><br></td></tr><tr valign="top"><td>18. &nbsp;</td> <td>PIGOZZO, ALEXANDRE BITTENCOURT ; MACEDO, GILSON COSTA ; Weber dos Santos, Rodrigo ; LOBOSCO, MARCELO. <b>Computational Modeling of Microabscess Formation</b>. Computational and Mathematical Methods in Medicine (Print). v. 2012, p. 1-16, 2012. <a href="http://dx.doi.org/10.1155/2012/736394" target="_blank" style="PADDING-RIGHT:4px;"><img border=0 src="doi.png"></a><br>		 <font size=-1> 		 [ <a href="http://scholar.google.com/scholar?hl=en&lr=&q=Computational+Modeling+of+Microabscess+Formation&btnG=Search">cita&ccedil;&otilde;es Google Scholar</a> | 		   <a href="http://academic.research.microsoft.com/Search?query=Computational+Modeling+of+Microabscess+Formation">cita&ccedil;&otilde;es Microsoft Acad&ecirc;mico</a> | 		   <a href="http://www.google.com/search?btnG=Google+Search&q=Computational+Modeling+of+Microabscess+Formation">busca Google</a> | 		   <a href="http://qualis.capes.gov.br/webqualis/" target="_blank"> estrato WebQualis</a>: N/A ] 		 </font><br></td></tr><tr valign="top"><td>19. &nbsp;</td> <td>QUINTELA, B. M. ; CALDAS, D. M. ; FARAGE, M. C. R. ; LOBOSCO, M.. <b>Multiscale Modeling of Heterogeneous Media Applying AEH to 3D Bodies</b>. 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